The necessity of global navigation satellite systems GPS, GLONASS, GALILEO information security

Authors

  • Валериян Анатольевич Швец Национальный авиационный университет

DOI:

https://doi.org/10.18372/2225-5036.20.7306

Keywords:

information security, GPS, GLONASS, GALILEO, integrity, availability, threats, antenna arrays

Abstract

The paper considers the problem of the functioning of global navigation satellite systems in the conditions of unintentional and intentional interference. Considered the performance requirements of global navigation satellite systems by types of transport systems. The basic threat of global navigation satellite systems. Based on the performance requirements of global navigation satellite systems, the analysis of their vulnerability when exposed to intentional and unintentional interference. The most vulnerable operational performance of the global navigation satellite system (integrity, and availability). Proposed a method of reducing the vulnerability of global navigation satellite systems with impact unintentional and intentional interference.

Author Biography

Валериян Анатольевич Швец, Национальный авиационный университет

Год и место рождения: 1959 г., ст. Окница, Молдова.

Образование: Киевский институт инженеров гражданской авиации (с 2000 года – Национальный авиационный университет), 1986 год.

Должность: заведующий кафедрой систем защиты информации с 2004 года.

Научные интересы: цифровая обработка сигналов, биометрика, информационная безопасность.

Публикации: более 90 публикаций, среди которых монографии, учебники, учебные пособия, научные статьи, патенты.

References

R.S. Littlepage. The Impact of Interference on Civil GPS // Proceedings ION GPS-98, - September 1998. – p. 821-828.

Pinker, D. Walker, C.Smith. Jamming the GPS signal // Proceedings ION-98, - September 1998. – p. 829-837.

S.V. Lyusin, L.B. Sazonov, I.G. Khazanov, A.S. Komarov. Combined GPS/GLONASS Receiver with High Antijamming Performance // Proceedings ION GPS-98. – September 1998. – p. 775-782.

P. Ward. GPS Receiver RF Interference Monitoring, Mitigation and Analysis Technique // Journal of the Institute of Navigation, V. 41, № 4, 1994.

S. Gilmore. The Impact of Jamming on GPS // Symposium on GPS Interference and Mitigation Technique held ay the Volpe National Transportation System Center, August 27, 1998.

E.L. Key. Technique to Counter GPS Spoofing // International Memorandum, MITRE Corporation, February 17, 1995.

L. Bond. Overview of GPS Interference Issues // GPS Interference Symposium – Volpe National Transportation System Center, Boston, August 27, 1998.

B. Forssel, T.B. Olsen. Jamming Susceptibility of Some Civil GPS Receivers // GPS World, № 1, 2003, p. 54-58.

B. Winer, et al., GPS Receiver Laboratory RFI Tests // Proceedings of the Institute of Navigation National Technical Meeting, Santa Monica, CA, January 22-24, 1996.

S. Wallis. GPS Open Air Testing – Jamming at Woomera // Proceedings of 1999 Technical Meeting & 19th Biennial Guidance Test Symposium, San Diego, January 25-27, 1999.

G. Colby, et al. Test Results of the Joint FAA/DoD Investigation of GPS Interference // Proceedings of the 10th International Technical Meeting of the Satellite Division of the Institute of Navigation, GPS-97, Kansas City, September, 1997.

Report of the Commission to Address United States National Security Space Management and Organizations, January 11, 2001.

John Hopkins University Applied Physics Laboratory // GPS Risk Assessment Study – Final Report, January 1999.

Vulnerability Assessment of the Transportation Infrastructure Relying on the Global Positioning System // A John Volpe National Transportation System Center Final Report, August 29, 2001.

C. Rodgers. Development of a Low Cost PC Controlled GPS Satellite Signal Simulator // Proceedings of the 15th Biennial Guidance Test Symposium, Holloman AFB, New Mexico, 1991.

US Department of Defense and US Department of Transportation, 1999 Federal Radio-navigation Plan, February 2000.

Validated ICAO GNSS Standards and Recommended Practices (SARPS), November 2000.

Minimum Aviation Performance Standards for the Automatic Dependent Surveillance Broadcast (ADS-B), RTCA DO-247, February 19, 1998.

E. Batterline, S.L. Forge. GPS: Synchronizing Our Telecommunications Networks // Proceedings of

the 12th International Technical Meeting of the Satellite Division of the Institute of Navigation, GPS-99, Nashville, September 14-17, 1999, pp. 597-605.

Задорожный А.И., Соловьев Ю.А., Маркелов М.А., Гордиенко Д.Н. Авиационные применения спутниковых приемников в условиях помех, 3-я Международная конференция "Планирование глобальной радионавигации", Москва, 2000.

Швець В.А. Експериментальні досліджен-ня завадостійкості систем GPS [Текст] / В. А. Швець // Вісник інженерної академії України. – 2012. № 3-4. – С. 160 – 164.

Сушіч О.П. Експериментальна оцінка впливу навмисних завад на апаратуру споживача глобальної навігаційної супутникової системи [Текст] / О.П. Сушіч// Вісник інженерної академії України . – 2012. № 3-4. С. 32 – 36.

D. Gustafson, J. Dowdle, K. Flueckiger. A High Anti-Jam GPS-Based Navigator // Proceedings of the Institute of Navigation National Technical Meeting, Anaheim, CA, January 26-28, 2000, pp. 495-503

S. Rounds. Jamming Protection of GPS Receivers // GPS World, February, 2004.

Швець В.А Структурна схема завадо-стійкої антенної решітки навігаційних систем GPS, ГАЛІЛЕО, ГЛОНАСС [Текст] / В.А. Швець // Вісник інженерної академії України . – 2014. № 1. С.149 – 151.

R. A. Monzingo, T. W. Miller. Introduction to adaptive arrays // SciTech Publishing, Inc. 2004.

Downloads

Published

2014-07-10

Issue

Vol. 20 No. 2 (2014)

Section

Organizational & Law Information Security